Provided by: libcatalyst-manual-perl_5.9009-2_all bug

NAME

       Catalyst::Manual::Tutorial::01_Intro - Catalyst Tutorial - Chapter 1: Introduction

OVERVIEW

       This is Chapter 1 of 10 for the Catalyst tutorial.

       Tutorial Overview

       1.  01_Introduction

       2.  Catalyst Basics

       3.  More Catalyst Basics

       4.  Basic CRUD

       5.  Authentication

       6.  Authorization

       7.  Debugging

       8.  Testing

       9.  Advanced CRUD

       10. Appendices

DESCRIPTION

       This tutorial provides a multi-part introduction to the Catalyst Web Framework. It seeks
       to provide a rapid overview of many of its most commonly used features. The focus is on
       the real-world best practices required in the construction of nearly all Catalyst
       applications.

       Although the primary target of the tutorial is users new to the Catalyst framework,
       experienced users may wish to review specific sections (for example, how to use DBIC for
       their model classes, how to add authentication and authorization to an existing
       application, and/or form management).

       The most recent code for the tutorial is included on the Tutorial Virtual Machine you can
       download from:

       <http://cattut.shadowcat.co.uk/>

       See "STARTING WITH THE TUTORIAL VIRTUAL MACHINE" below for instructions getting and using
       the VM.

       Should you wish to download the code directly, you get pull it via the following command
       (note: will probably be switching to git soon):

           svn co http://dev.catalyst.perl.org/repos/Catalyst/trunk/examples/Tutorial/ CatalystTutorial

       This will download the most recent code for each chapter of the tutorial into the
       CatalystTutorial directory on your machine.

       These reference implementations are provided so that when you follow the tutorial, you can
       use the code to ensure that your system is set up correctly (which shouldn't be an issue
       if you use the Tutorial Virtual Machine), :-) and that you have not inadvertently made any
       typographic errors, or accidentally skipped part of the tutorial.

       NOTE: You can use any Perl-supported OS and environment to run Catalyst. It should make
       little or no difference to Catalyst's operation, but this tutorial has been written using
       the Debian-based Tutorial Virtual Machine that you can download and use to work through
       the full tutorial step by step.  WE STRONGLY RECOMMEND THAT YOU USE THE VIRTUAL MACHINE
       IMAGE TO WORK THROUGH THE TUTORIAL to avoid issues that may crop up if you are working
       with a different configuration.  We have tested the Tutorial Virtual Machine to make sure
       all of the examples work correctly, but it is hard to guarantee this on other platforms
       and versions.

       If you would prefer to install directly from CPAN and not use the Tutorial Virtual
       machine, you can download the example program and all the necessary dependencies to your
       local machine by installing the "Task::Catalyst::Tutorial" distribution:

            cpan Task::Catalyst::Tutorial

       This will also test to make sure the dependencies are working.  If you have trouble
       installing these, please ask for help on the #catalyst IRC channel, or the Catalyst
       mailing list.

       Subjects covered by the tutorial include:

       •   A simple application that lists and adds books.

       •   The use of DBIx::Class (DBIC) for the model (including some of the more advanced
           techniques you will probably want to use in your applications).

       •   How to write CRUD (Create, Read, Update, and Delete) operations in Catalyst.

       •   Authentication ("auth").

       •   Role-based authorization ("authz").

       •   Attempts to provide an example showing current (5.9) Catalyst practices.

       •   The use of Template Toolkit (TT).

       •   Useful techniques for troubleshooting and debugging Catalyst applications.

       •   The use of SQLite as a database (with code also provided for MySQL and PostgreSQL).
           (Note: Because we make use of the DBIx::Class Object Relational Mapping [ORM] layer,
           out our application will be database agnostic and can easily be used by any of the
           databases supported by DBIx::Class.)

       •   The use of HTML::FormFu or HTML::FormHandler for automated form processing and
           validation.

       This tutorial makes the learning process its main priority.  For example, the level of
       comments in the code found here would likely be considered excessive in a "normal
       project."  Because of their contextual value, this tutorial will generally favor inline
       comments over a separate discussion in the text.  It also deliberately tries to
       demonstrate multiple approaches to various features (in general, you should try to be as
       consistent as possible with your own production code).

       Furthermore, this tutorial tries to minimize the number of controllers, models, TT
       templates, and database tables.  Although this does result in things being a bit contrived
       at times, the concepts should be applicable to more complex environments.  More complete
       and complicated example applications can be found at
       <http://wiki.catalystframework.org/wiki/resources/catalystexamples> and in the "examples"
       area of the Catalyst Subversion repository at
       <http://dev.catalyst.perl.org/repos/Catalyst/trunk/examples/>.

STARTING WITH THE TUTORIAL VIRTUAL MACHINE

       The steps below briefly outline how you can download the Tutorial Virtual Machine.  This
       document uses the term "host machine" to refer to the physical machine where you will run
       the virtualization software and boot up the VM.  The terms "guest machine" or just "VM"
       refer to the virtual machine itself -- the thing where you actually do the tutorial (and
       that you boot up on the "host machine").

       Note: Throughout the tutorial, we will shows the UNIX shell prompt as ""$"".  If you are
       using the Tutorial VM, the prompt will really be ""catalyst@catalyst:~$"" (where ""~""
       will change to show your current directory), but we will keep it short and just use ""$"".

       1.  Download a Tutorial Virtual Machine image from <http://cattut.shadowcat.co.uk/>

           A big thanks to Shadowcat Systems for hosting the virtual machines (and everything
           else they do for the Perl community)!

       2.  Uncompress the image on the "host machine":

               MAINCOMPUTER:~$ tar zxvf CatalystTutorial.tgz

       3.  Boot the virtual machine using a tool like VMWare Player
           <http://www.vmware.com/products/player> or VirtualBox <http://www.virtualbox.org/>.

       4.  Once you get a login prompt, enter the username catalyst and a password for
           "catalyst".  You should now be at a prompt that looks like:

               catalyst login: catalyst
               Password: catalyst
               ...
               catalyst@catalyst:~$

       5.  Type ""ifconfig"" to get the IP address assigned to the virtual machine.  You should
           get output along the lines of:

               eth0  Link encap:Ethernet  HWaddr 00:01:22:3b:45:69
                     inet addr:192.168.0.12  Bcast:192.168.0.255  Mask:255.255.255.0
               ...

           You want the IP address on the second line below the "eth0" interface.  The image it
           design to automatically use a DHCP-assigned address.

           Try to ping this IP address from your "host machine" (main desktop):

               MAINCOMPUTER:~$ ping 192.168.0.12
               PING 192.168.0.12 (192.168.0.12) 56(84) bytes of data.
               64 bytes from 192.168.0.12: icmp_req=1 ttl=255 time=4.97 ms
               64 bytes from 192.168.0.12: icmp_req=2 ttl=255 time=3.43 ms
               ...

           Note: The ping above is being originated from your host machine (main desktop) and
           going to your guest virtual machine, not the other way around.

           If you are not seeing a valid IP address or it's not responding to pings (for example,
           you get error messages along the lines of "Request timed out", "100% packet loss", or
           "Destination Host Unreachable"), there could be a few network-related issues you might
           need to sort out.  See the section below "Sorting Out Virtual Machine Network-Related
           Issues" for additional information and troubleshooting advice.

           Note: Remember this IP address... you will be using it throughout the tutorial.

       6.  From your main desktop machine, open an SSH client and connect to the IP address found
           in the previous step.  You should get a login prompt (accept the SSH key if you get a
           warning message about that).  Login with the same username and password as we used in
           Step 4: catalyst / catalyst

               catalyst login: catalyst
               Password: catalyst
               ...
               catalyst@catalyst:~$

       7.  Using the SSH session, change to the sample code directory for Chapter 3 included with
           the Tutorial Virtual Machine and start the Catalyst Development Server:

               $ cd Final/Chapter03/MyApp
               $ perl script/myapp_server.pl

       8.  From your main desktop machine (the "host machine"), open a web browser and go to
           http://A.B.C.D:3000/, where "A.B.C.D" is the IP address to your virtual machine that
           you looked up in Step 5.  For example, if your virtual machine is using the IP address
           192.168.0.12, you would put the following URL into your web browser:

               http://192.168.0.12:3000/

           Make sure you don't forget the :3000 to use port 3000 instead of the usual port 80
           that is used by HTTP by default.

           You should get a Catalyst Welcome Screen.  If you do, feel free to jump right in to
           Chapter 2 of the tutorial.  If you don't go get the Catalyst Welcome Screen, go back
           and carefully check each of the steps above.

       9.  Optional: Also, to reduce download size, the Tutorial VM just includes a minimal
           command-line environment.  You are free to use Debian's very capable "apt" package
           manager to install other packages.  You will first want to pull the apt cache files
           with "aptitude update" (or "apt-get update" if you prefer apt-get).

           The VI/VIM editor is already installed on the Tutorial Virtual Machine.  In order to
           reduce the size of the download, Emacs is not pre-installed.  Since people obviously
           have very strong opinions about which editor is best, :-) fortunately it's very easy
           to install Emacs:

               $ sudo aptitude update
               $ sudo aptitude install emacs

           In general, it is expected that people will boot up the Tutorial VM on their main
           desktop (the "host machine" using the terminology above) and then use that main
           desktop machine to SSH and web browse into the "guest VM" as they work through the
           tutorial.  If you wish to install X Windows (or any other packages), just use the
           "aptitude" (or "apt-get") Debian commands.

           For example, to install X Windows with Fluxbox (a lightweight WindowManager -- it is
           great for things like this tutorial since it's about 1/10th the size of other common X
           Windows environments), you can do:

               $ sudo aptitude update
               $ sudo aptitude install xorg fluxbox iceweasel

           And then start X Windows from the VM Console with this command:

               $ startx

           Note that if you want to start Fluxbox from an SSH session, you can use the "sudo
           dpkg-reconfigure x11-common" and select "anybody" from the menu.  Otherwise, you will
           need to be on the actual "VM console" to start it.

           If you have a preference for the Gnome desktop environment, you can do:

               $ sudo aptitude update
               $ sudo aptitude install gnome iceweasel
               $
               $ # You can reboot or start with 'startx', we will just reboot here
               $ reboot

           For KDE, just substitute the package name ""kde"" for ""gnome"" above.

               $ sudo aptitude install kde iceweasel

           Note that "iceweasel" is basically used to install Firefox on Debian boxes.  You can
           start it under X Windows with either the "firefox" command or the "iceweasel" command
           (or use the menus).  You can get more information on Iceweasel at
           <http://wiki.debian.org/Iceweasel>.

           Also, you might need to add more memory to your virtual machine if you want to run X
           Windows (or other tools that might require additional memory).  Consult the
           documentation of your virtualization software for instructions on how to do this (it's
           usually pretty simple).

       You may note that the Tutorial Virtual Machine uses local::lib so that the Perl modules
       are run from ~/perl5 (in this case, /home/catalyst/perl5) vs. the usual location of your
       "system Perl".  We recommend that you also consider using this very handy module.  It can
       greatly ease the process of maintaining and testing different combinations or Perl modules
       across development, staging, and production servers.  (The "relocatable Perl" feature can
       also be used to run both the modules and Perl itself from your home directory [or any
       other directory you chose]).

       Note: Please provide feedback on how the Virtual Machine approach for the tutorial works
       for you.  If you have suggestions or comments, you can reach the author through the email
       address at the bottom of this page or via an RT ticket at
       <https://rt.cpan.org/Public/Dist/Display.html?Name=Catalyst-Manual>.

   Sorting Out Virtual Machine Network-Related Issues
       In general, using a virtual machine to work through the tutorial is *much* easier than
       trying to do it in other environments, especially if you are new to Catalyst (or Perl or
       CPAN or ...).  However, it's possible that you could run into a few network-related
       issues.  The good news is that there is lots of information about the issue available via
       search engines on the Internet.  Here is some background information to get you started.

       In Step 5 of the prior section above, we assumed that a "Bridged Mode" configuration and
       DHCP will work (it should for most people).  If DHCP is not working or is not available in
       your location, most virtual machine "host" environments let you select between one of
       several different types of networking between the "guest" and the "host" machine.

           1) Bridged
           2) NAT
           3) Local host only

       The Tutorial Virtual Machine defaults to "Bridged" -- this should result in the VM acting
       like another device on your network that will get a different DHCP IP address than the
       host machine.  The advantage of this approach, is that you can easily SSH and web browse
       to the guest virtual machine.  In general, this is the best option if you want to be able
       to boot up the VM and then use your SSH client and web browser from your main machine to
       connect into the virtual machine.

       In some environments, you might have better luck with "NAT" (Network Address Translation)
       mode.  With this configuration, the guest VM shares the same IP address as the host
       machine.  The downside of this approach is that special configuration is required if you
       want to be able to SSH or web browse to the guest VM.  The NAT option should automatically
       allow the VM "outbound connection" (e.g., to the Internet if you want to install
       additional Debian packages), but it requires special configuration if you want to get
       "inbound connections" that go from some other machine (including the "host machine") into
       the VM.  Some virtual machine host environments let you configure a "static NAT" or "port
       forwarding" to reach the guest OS, but others omit this functionality.

       Note: NAT mode can work fine if you install X Windows and do the whole tutorial locally on
       the actual VM vs. using SSH and a web browser from your host machine.

       "Local host only" mode let's the guest VM and the host machine talk on a "private subnet"
       that other devices in your network cannot reach.  This can work as long as you don't need
       to go from the VM to the Internet (for example, to install other Debian packages).

       Consult the documentation on your virtual machine host environment for help configuring
       the options above.  Here are some links that might help:

       •   <http://vmfaq.com/entry/34/>

       •   <http://www.vmware.com/support/pubs/player_pubs.html>

       •   <http://www.virtualbox.org/manual/ch06.html>

VERSIONS AND CONVENTIONS USED IN THIS TUTORIAL

       This tutorial was built using the following resources. Please note that you may need to
       make adjustments for different environments and versions (note that trailing zeros in
       version numbers are not significant and may get dropped with some techniques for viewing
       them; for example, Catalyst v5.80020 might show up as 5.8002):

       •   Debian 6 (Squeeze)

       •   Catalyst v5.90002

       •   Catalyst::Devel v1.34

       •   DBIx::Class v0.08195

       •   Catalyst::Model::DBIC::Schema v0.54

       •   Template Toolkit v2.22

       •   HTML::FormFu -- v0.09004

       •   NOTE: You can check the versions you have installed with the following command (note
           the slash before the space):

               perl -M<_mod_name_>\ 999

           or:

               perl -M<_mod_name_> -e 'print "$<_mod_name_>::VERSION\n"'

           For example:

               perl -MCatalyst::Devel\ 999

           or:

               perl -MCatalyst::Devel -e 'print "$Catalyst::Devel::VERSION\n";'

       •   This tutorial will show URLs in the format of "http://localhost:3000", but if you are
           running your web browser from outside the Tutorial Virtual Machine, you will want to
           substitute the IP address of your VM for the "localhost" in the URLs (again, you can
           get the IP address for eth0 from the "ifconfig" command).  For example, if your VM has
           an IP address of 192.168.0.12, you will want to use a base URL of
           "http://192.168.0.12:3000".  Note that the development server defaults to port 3000
           (you can change with the "-p" option on the command line).

           Please Note: Depending on the web browser you are using, you might need to hit
           "Shift+Reload" or "Ctrl+Reload" to pull a fresh page when testing your application at
           various points (see <http://en.wikipedia.org/wiki/Wikipedia:Bypass_your_cache> for a
           comprehensive list of options for each browser).

           Also, the "-k" keepalive option to the development server can be necessary with some
           browsers (especially Internet Explorer).

DATABASES

       This tutorial will primarily focus on SQLite because of its simplicity of installation and
       use; however, modifications in the script required to support MySQL and PostgreSQL will be
       presented in the Appendix.

       Note: One of the advantages of using tools like Catalyst and DBIC is that applications
       become much more database independent.  As such, you will notice that only the ".sql"
       files used to initialize the database change between database systems: most of the code
       generally remains the same.

       You can jump to the next chapter of the tutorial here: Catalyst Basics

AUTHOR

       Kennedy Clark, "hkclark@gmail.com"

       Feel free to contact the author for any errors or suggestions, but the best way to report
       issues is via the CPAN RT Bug system at
       <https://rt.cpan.org/Public/Dist/Display.html?Name=Catalyst-Manual>.

       Copyright 2006-2011, Kennedy Clark, under the Creative Commons Attribution Share-Alike
       License Version 3.0 (<http://creativecommons.org/licenses/by-sa/3.0/us/>).